(application abstract) The theme of the proposed Nanomedicine Development Center is design of biomimetic nanoconductors and devices utilizing nanoconductors. The model theoretical systems will be native and mutant biological ion channels and other ion transport proteins and synthetic channels, and heterogenous membranes containing channels and transporters. The model experimental systems will be decorated nanopores in silicate wafers or other substrates, and ion channels and transporters with lipid surround inserted in arrays of nanopores. In some cases the experiments will be designed to assay the properties of the channels and transporters. In other cases, the experiments will be designed to explore the emergent properties of heterogeneous arrays of transporters as they apply to major roles of ion transport in biological systems: a) Electrical and electrochemical signaling b) generation of osmotic pressures and flows c) generation of electrical power. d) Energy transduction At the most applied level, the experiments now planned will be aimed directly at the design of a class of devices for generating electric power, the biobattery. General relevance: It appears that every living cell has membrane ion transporters, and some viral genomes code for them as well. They are universally implicated in regulating and driving water balance and osmotic flow, signaling, generation of electrical currents, and transduction of energy at the level of cells, organelles, and molecules. Thus deeper understandings of the molecular mechanisms of ion transport, and of the emergent properties from the interactions of ion transporters, have broad relevance to understanding a wide range of physiological processes. These understandings will yield insight into disease echanisms and targeting strategies against diseases, and also form the knowledge base for design of medically useful biomimetic bio-compatible devices. The broad categories of such devices that we reckon can be constructed using nanoconductor components are: sensors, power sources, energy transducers, and osmotic pumps. The devices can be any size from nanoscale up. They can be utilized for either research or therapy in any situation in which miniaturizability, biocompability, efficiency, and bio-drivability, as described above, are significant assets.

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Development Center (PN2)
Project #
3PN2EY016570-02S1
Application #
7280978
Study Section
Special Emphasis Panel (ZEY1)
Program Officer
Fisher, Richard S
Project Start
2004-09-30
Project End
2010-09-09
Budget Start
2005-09-30
Budget End
2006-09-29
Support Year
2
Fiscal Year
2006
Total Cost
$200,000
Indirect Cost
Name
University of Illinois Urbana-Champaign
Department
Type
Organized Research Units
DUNS #
041544081
City
Champaign
State
IL
Country
United States
Zip Code
61820
Pascal, Jennifer; Ashley, Carlee E; Wang, Zhihui et al. (2013) Mechanistic modeling identifies drug-uptake history as predictor of tumor drug resistance and nano-carrier-mediated response. ACS Nano 7:11174-11182
Ashley, Carlee E; Carnes, Eric C; Epler, Katharine E et al. (2012) Delivery of small interfering RNA by peptide-targeted mesoporous silica nanoparticle-supported lipid bilayers. ACS Nano 6:2174-88
Epler, Katharine; Padilla, David; Phillips, Genevieve et al. (2012) Delivery of ricin toxin a-chain by peptide-targeted mesoporous silica nanoparticle-supported lipid bilayers. Adv Healthc Mater 1:348-53
Rogers, David M; Beck, Thomas L; Rempe, Susan B (2011) An Information Theory Approach to Nonlinear, Nonequilibrium Thermodynamics. J Stat Phys 145:385-409
Ashley, Carlee E; Carnes, Eric C; Phillips, Genevieve K et al. (2011) Cell-specific delivery of diverse cargos by bacteriophage MS2 virus-like particles. ACS Nano 5:5729-45
Ashley, Carlee E; Carnes, Eric C; Phillips, Genevieve K et al. (2011) The targeted delivery of multicomponent cargos to cancer cells by nanoporous particle-supported lipid bilayers. Nat Mater 10:389-97
Dunphy, Darren R; Garcia, Fred L; Kaehr, Bryan et al. (2011) Tricontinuous Cubic Nanostructure and Pore Size Patterning in Mesostructured Silica Films Templated with Glycerol Monooleate. Chem Mater 23:2107-2112
Jiang, Xingmao; Jiang, Ying-Bing; Brinker, C Jeffrey (2011) Hydrothermal synthesis of monodisperse single-crystalline alpha-quartz nanospheres. Chem Commun (Camb) 47:7524-6
Rogers, David M; Rempe, Susan B (2011) Probing the thermodynamics of competitive ion binding using minimum energy structures. J Phys Chem B 115:9116-29
Li, Yaohang; Rata, Ionel; Jakobsson, Eric (2011) Sampling multiple scoring functions can improve protein loop structure prediction accuracy. J Chem Inf Model 51:1656-66

Showing the most recent 10 out of 44 publications